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Table of Contents
Table of Contents
About This Guide..................................................................................................5
Congratulations
Specifications and Features.....................................................................................................6
Understanding RAID Concepts and T erminology...............................................................9
CONTACT US ......................................................................................................60
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Table of Contents
About This Guide
The RocketRAID 35xx SAT AII Host Adapter’s User’s Guide provides information
about the functions and capabilities of the host adapter, and instructions for
installing, configuring and maintaining RAID arrays hosted by the adapter.
The RocketRAID 35xx Host Adapter
The RocketRAID 35xx series is based on HighPoint’s TerabyteArchitecture and highperforming Intel® IOP341 I/O Processor delivers enterprise-class SAT A RAID 5 and
RAID 6 performance for storage applications that need high bandwidth and high
capacity sequential performance. The Intel® IOP341(800MHz) I/O Processor is one of
the industry’s highest performing RAID I/O processor engines for multi-channel
SA TA hardware RAID 5/6 controllers. The RocketRAID 35xx series of PCI-Express
hardware RAID controllers leverages HighPoint TerabyteArchitecture and a powerful Intel® IOP341 I/O Processor to deliver the industry’s leading RAID 6 performance.
The RocketRAID 35xx series offer a comprehensive line of hardware RAID controllers
via cutting edge multi-lane connectors from 4,8,12,16 and 24 ports. All RocketRAID
35xx series controllers support RAID level 0, 1, 3, 5, 6, 10, 50 and JBOD.
The RocketRAID 35xx series offers a robust hardware RAID 6 protection, an additional disk drive failure tolerance provided by a second independent distributed parity
scheme. It provides protection for mission-critical data from two concurrent disk
failures. For instance, eliminating the risk of data loss if a second drive fails while
rebuilding is in process.
An optional Battery Back Up with integrated write journaling enhances data availability through rapid data recovery from power outage events.
Comprehensive OS Support
HighPoint offers the broadest range of support for all major operating systems to
ensure OS and hardware server compatibility. Drivers are available for all major
operating systems, including W indows , Linux, Mac OS X and FreeBSD. GPL Licensed Linux drivers into main Linux kernel help customers easily install and configure the RocketRAID 35xx.
5
Congratulations
1 - Specifications and Features
Host Adapter Architecture
•T erabyteStream™ for Blazing Performance
•Intel IOP 81341(800MHz)
•PCI -Express x8
•256 MB of DDR II memory with ECC protection(RocketRAID3522/3530/3540),
One DIMM Socket with default 1GB of DDR2-533 SDRAM with ECC
protection, upgrade to 2GB(RocketRAID 3560)
•Support up to 8/12/16/24 SA T AII drives(RocketRAID3522/3530/3540/3560)
•Support 8 External ports(RocketRAID 3522);
Support 12/16 Internal ports(RocketRAID 3530/3540);
Automatic detect 24 Internal ports or 20 Internal & 4 External ports
(RocketRAID 3560)
•Multi adapter support up to 4 adapters
•Intel RAID 6 (P+Q) for large capacity RAID arrays
•NVRAM for write journaling
•Battery Backup Unit (BBU) Optional
•RoHS compliant
Advance RAID Features
•Support RAID 0, 1, 3, 5, 6,10, 50 and JBOD
•Multiple RAID support
•Multiple Logical Drive Support
•BIOS booting support
•BIOS PnP and BBS (BIOS boot specification)support
•Write through and write back cache
•Online array roaming
•Online capacity expansion (OCE) and Online RAID level migration (ORLM)
•Quick and Background initialization for instant RAID configuration
•Automatic drive insertion / removal detection and rebuild
•64bit LBA support greater than 2TB per volume
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Congratulations
•S.M.A.R.T monitoring hard drive status for reliability
• Intelli-VRM. (Intelligent V irtual RAID Managment)
• SHI – Storage Health Inspector (S.M.A.R.T. and disk maintenance)
RAID Management
• TerabyteSaver™ and TerabyteGuard™ for Data Protection and Reliability
• Firmware update in the Operating System
• Hot key (ctrl-h) boot-up RAID manager via BIOS
• API library for customizing AP
• Command Line Interface (CLI)
• Web browser-base RAID management software
• Disk scrubbing to prevent degraded RAID arrays
• Bad sector repair and re-mapping to reduce dropped drives
• ATA pass-through mode support
Operating System Support
• Windows XP, 2003, Vista, 2008 (32 and 64-bit versions)
• Linux
• FreeBSD
• Mac OS X 10.4.x & 10.5.x
• GPL licensed driver into Linux Kernel 2.6.25
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Congratulations
PHYSICAL SPECIFICATIONS
Size: (160.0mm x 66.0mm) 6.26”L x 2.59”W (RocketRAID 3522)
(202.0mm x 96.0mm) 7.95” L x 3.77” W (RocketRAID 3530/3540)
(242.0mm x 111.0mm) 9.54” L x 4.38” W (RocketRAID 3560)
WEMI : FCC Part 15 Class B and CE
Thermal and Atmospheric Characteristics:
W ork T emperature Range : +5 C ~ + 55 C
Relative Humidity Range : 5% ~ 60% non condensing
Storage T emperature : -20 C~ +80 C
MTBF: 920,585 Hours
Electrical Characteristics:
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Congratulations
Understanding RAID Concepts and Terminology
The following concepts and terminology is commonly used when describing the
functions of the RocketRAID 35xx Host Adapter.
Disk initialization
Initializing a disk writes necessary RAID configuration information to that disk. Disks
must be initialized before configuring them into RAID arrays. The initialization
process will destroy all data on the disk.
Disk Status
NewThe disk contains no data and has not been initialized.
InitializedThe disk has been initialized and can be used for array creation.
Configured The disk has been assigned to one or more arrays, or configured as a
spare disk.
LegacyThe disk was used on other controllers before use with the
RocketRAID 35xx (see legacy disk below).
Array initialization
A redundant array (RAID1,RAID5, RAID6, RAID10) needs to be initialized to ensure
full performance and reliability. Non-redundant arrays (RAID0, JBOD) do not need to
be initialized.
When you create a redundant array using the RocketRAID35xx controller’s BIOS
Configuration Utility, it will automatically start the initialization process. When
creating an array using the HighPoint RAID Management Console software, you can
specify an initialization option (Skip initialization, foreground and background).
Online RAID Level Migration
This term describes the ability to change one type of array (RAID level), into a different
type of array (changing a RAID 1 array into a RAID 10 array for example). Data is still
accessible during the migration process, and a base level of security is still active.
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Congratulations
OCE, ORLM and the RocketRAID 35xx
The RocketRAID 35xx supports both Online Capacity Expansion (OCE), and Online
RAID Level Migration (ORLM). Both features are supported by a single function - an
array can be transformed from one RAID level to another RAID level while simultaneously being resized, even under I/O load.
Spare disk
A spare disk is a single disk that can be used to automatically rebuild a redundant array
in case of drive failure. Spare disks may also be members of a RAID array . Any available
space on these disks may be used to rebuild other broken arrays.
Legacy disk
Disks attached to the RocketRAID 35xx that contain valid partition tables will be identified as legacy disks. A legacy disk attached to the RocketRAID 35xx can be accessed by
the operating system, but cannot be used to create RAID arrays. A legacy disk must be
initialized before assigning it to an array.
Network Features
The RocketRAID 35xx offers a selection of network-oriented RAID Management
functions. These features are integrated into the card’s firmware, and can be administrated using the BIOS and Web-based management utilities.
SNMP Manager - Simple Network Management Protocol. Allows the administrator to
view the current state of the entire RAID system.
SNMP Trap - The RAID adapter can be configured to report events over the network.
When an event is generated by the RAID Management utility, the SNMP Trap will send
SNMP Trap messages to the Trap Receiver.
NTP - Network time protocol. The RocketRAID 35xx’ s firmware automatically synchronizes it’s internal clock to match that of the selected server. If a NTP server is not
specified, the adapter will synchronize itself with the host system’s BIOS clock.
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Congratulations
Hardware - Description and Installation
1-RocketRAID Adapter layout
1.1 – RocketRAID 3560 Adapter layout
Port1 to Port6
These represent RocketRAID 3560’s 6 Internal Mini-SAS ports. Each port can direct
connect up to 4 hard drives.
Port7
This represents RocketRAID 3560’s additional External Mini-SAS port. W ith the
automatic port selection funtion, Port7 can be used when Port1 has no disks attached
during power up,this port can direct connect up to 4 hard drives.
DIMM1
The connector represents one DDR2-533 DIMM socket that allows for upgrading up
to 2GB of memory. By default,it supports 1GB of ECC DDR533 SDRAM memory.
A1-A6, F1-F6
A1-A6 are Disk Activity LED’ s; F1-F6 are Disk Faliture LED’ s.
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Congratulations
J1
This jumper supports SAF-TE interface(I2C).
J2
LCD connector for LCD Panel and Push Button
Pins defined as follow:
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Congratulations
J3 (BBU connector)
Connector for battery backup unit (optional part).
BEEP1 – Speaker
Alarm (speaker): the speaker emits and audible alarm in the case of disk/array failure.
Ethernet Port
Ethernet port(J4) for Out of Bound Manegement, support Net Time Protocol.
Cable – Internal Mini-SAS to SATA
The integrated RocketRAID 3560 includes 6 Internal Mini-SAS to SATA cables, each
of the RocketRAID 3560’s cables can support SGPIO SideBand Connector. Pins
defined as follows:
As follows:
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Congratulations
1.2 – RocketRAID 3530/3540 Adapter layout
RocketRAID 3530
RocketRAID 3540
Port1-4
These represent the RocketRAID 3530/3540’s Internal Mini-SAS ports. Each port can
support up to 4 SATA hard disks. The RR3530 is 3 Mini-SAS ports, and can support
up to 12 disks. The RR3540 is 4 Mini-SAS ports, and can support up to 16 hard disks.
A1-A4/F1-F4
LED connections. “A” refers to the disk activity connectors, and those marked “F”
function as disk failure connectors
Note: The RocketRAID 3530 supports 12 disks, and only provides 3 LED connectors
for each function (A1-A3 ,F1-F3).
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Congratulations
Connectors A1-A4 provides LED support for Drive Activity , while connectors F1-F4
indicates Drive Failure.
ACT LED and Fail LED have 5 pins while we just explain 4 pin’ s function.
J4
This jumper is the SAF-TE interface port (for disk enclosures/chassis)
SAF-TE jumper has 4 pins while we just explain 3 pin’s function.
BEEP1 -(alarm/speaker)
the speaker emits and audible alarm in the case of disk/array failure.
J17
This jumper can be used to enable or disable the card’s alarm (BEEP1). The alarm is
enabled by default (the jumper is attached). To disable the alarm, remove the jumper
J18 (BBU connector)
Connector for battery backup unit (optional part).
Ethernet Port
Ethernet port (U32) for Out of Band Management, support Net Time Protocol.
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Hardware – Description and Installation
1.3 – RocketRAID 3522 Adapter layout
Port1, Port2
These represent the RocketRAID 3522’s two External Mini-SAS ports. Each port can
support up to 4 hard disks.
J1 - SAF-TE connector
BEEP1 – Speaker
Alarm (speaker): the speaker emits and audible alarm in the case of disk/array failure.
J8 (BBU connector)
Connector for battery backup unit (optional part).
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Hardware – Description and Installation
2 – Installing the RocketRAID Host Adapter
2.1 – Installing the RocketRAID 35xx Host Adapter
Note: Make sure the system is powered-off before installing the RocketRAID 35xx
host adapter.
1 .Open the system chassis and locate an unused PCI-E x8.
2.Remove the PCI slot cover.
3.Gently insert the RocketRAID 35xx into the PCI-E slot, and secure the bracket to
the system chassis.
4 .After installing the adapter, attach the Mini-SAS connectors to the RocketRAID
35xx’s Mini-SAS port,and to chassis backplane. Each Mini-SAS cable supports
up to 4 hard disk drives. Consult the chassis’s manual for proper installation
procedures.
5. Close and secure the system chassis.
(illustration shows RocketRAID 3560)
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Hardware – Description and Installation
2.2 – Installing the HighPoint Ethernet Board for RocketRAID 3522
.
Host Adapter
1. Installing the HighPoint Ethernet Board – the following illustration shows the
HighPoint Ethernet Board
U1 is the RJ45 connector. J1 is connector for connecting the HighPoint Ethernet
Board to the RocketRAID Host Adapter. If you want to use the Ethernet functions,
connect the HighPoint Ethernet Board to the RocketRAID Host Adapter via connectors J24 through J1, and secure the two boards to the bracket. If you do not want to
use the Ethernet function, secure the RocketRAID Host Adapter to the bracket.
Once the RocketRAID host adapter and hard drives have been installed into the
.
chassis, boot-up the system to verify that the hardware is properly recognized.
1.Power on the system. If the system detects the presence of the adapter, the
RocketRAID BIOS Utility will be displayed during bootup.
2.Press Ctrl+H to access the RocketRAID adapter’s BIOS Utility.
The BIOS Utility will display information about hard disks attached to the adapter.
Make sure all attached disks are detected by this utility. If any of the hard disks are
not detected, power down the system and check the power and cable connections
4 - Battery Backup
A battery backup option is available as an optional add-on component. The battery
provides additional data security in case of a critical system failure. Data normally lost
during a major system fault, such as a power outage or CPU failure, which was in
transit at the time of the failure (stored in the card’s onboard cache), will remain viable
for up to 72 hours. The battery unit can be attached to the card using the BBU CONN.
Attach the BBU to the RocketRAID 35xx, using the cable included with the BBU unit:
(illustration shows the RocketRAID 3560)
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